Cord type container carrier



Nov. 25, 1969 J. D. ROCKETT com) TYPE CONTAINER cnamn 3 Sheets-Shed 1 Filed Dec; 27, 1967 Nov. 25, 1969 J'. o. ROCKETT 3,480,135

CORD TYPE CONTAINER CARRIER Filed Dec. 27, 1967 3 Sheets-Sheet 2 Nov. 25, 1969 J. o. ROCKETT 3,480,135

CORD TYPE CONTAINER CARRIER Filed Dec. 27, 1967 3 Sheets-Sheet s /0 Inn 10 r 7 22 IO 22 F L L 0 |l'| I0 22 IO 22 (1'8 Q 10 L 1 j 10 p l I" 'H'l I0 ICT 9 United States Patent 3,480,135 CORD TYPE CONTAINER CARRIER James D. Rockett, 1904 N. 34th St., Milwaukee, Wis. 53208 Filed Dec. 27, 1967, Ser. No. 693,856 Int. Cl. B65d 71/00 US. Cl. 206-65 4 Claims ABSTRACT OF THE DISCLOSURE A carrying unit for a plurality of containers and the like being comprised of two series of loops, each series of said loops being comprised of a cord or ribbon being wound or placed upon a series of containers to co-mate in a gripping manner, said loops being formed and welded from a single strand or a plurality of strands, embodiments being comprised of two strands per series of loops being welded, or twisted and welded to form complete loops, said series of said loops then being joined together to form a package unit having two parallel rows of clustered containers.

The present invention is designed to overcome the troubles and faults of prior art pertaining to container carriers. In the past most of the production of canned beverages, such as beer, was packaged, usually, in clusters of six, in paperboard cartons. Because of high costs and packaging speeds required, a substantial changeover to plastic sheet and web type container carriers has been made. The web type container carrier has made the greatest inroad into the market because of its lower cost. But, this web type carrier still has a relatively high installed cost. This relatively high cost can be attributed mainly to four factors: (1) the large amount of plastic material initially required, (2) a die cutting operation to form the desired apertures into the carrier, (3) the waste material removed by the die cutting, (4) the complicated and expensive machinery required to install the carriers on the containers.

The present invention is designed to overcome all these difliculties by the use of a continuous cord or ribbon or plurality of cords or ribbons. This method will reduce the installed costs of a container carrier by: (1) an absolute minimum of material initially required, (2) no secondary cutting operation, (3) no waste, (4) simple and inexpensive installation machinery.

The present invention is just as its name impliesa container carrier comprised entirely, in most embodiments, of a thin solid or hollow center cord or ribbon installed onto the containers and welded, for strength and rigidity, at strategic points in a continuous operation utilizing a method of producing a continuous series of loops in the cords or ribbons. The cords and ribbons are preferably made from a plastic material having at least some degree of elasticity. The continuous series of loops enclosing said containers are then severed at desired points to produce clustered containers in the desired pluralities. Removal of the clustered containers is accomplished by slipping the containers out of their loops or by tilting at least one container to break the carrier structure.

The cord type container carrier will be described with reference to the attached drawings, wherein:

FIG. 1 is a perspective view of a cord type container carrier;

FIG. 2 is a perspective view of the container carrier of FIG. 1 installed upon a cluster of containers;

FIG. 3 is a perspective view of an embodiment of the present invention;

FIG. 4 is a perspective view of another embodiment utilizing ribbon;

FIG. 5 is a perspective view of still another embodiment;

FIG. 6 is a cross sectional view showing a cord on a chimed can;

FIG. 7 is a cross sectional view showing a ribbon on a chimed can;

FIG. 8 is a cross sectional view showing a cord on a flush chime can;

FIG. 9 is a side view showing cord connecting means;

FIG. 10 is a side view showing ribbon connecting means.

With reference to FIG. 1 a cord type container carrier is shown as a two-piece unit for a clearer understanding, One piece is designated as cord I and the other as cord II. Both are comprised of single strands of continuous plastic cords with said cords being formed into a series of continuous loops 10A, 10 and 10B with traversals 11 connecting successive loops. The loops 10A, 10 and 10B of cord I are then welded, by sufiicient application of heat, to the loops 10A, 10 and 10B of cord II along planes GG or cord I may be joined to cord II by welding plane A-A of cord I to plane B-B of cord II. Loops 10 of joined cords I and II may also be welded along planes HH' for added strength and rigidity. Welding is not done across loops 10A to 10 or from 10 to 10B as indicated by the dashed lines of loops 10A and 10B. The container carrier may then be severed, as in this case, along planes C-C' and D-D' by cutting traversal cords 11 and leaving traverse stubs 11A and 11B on the cluster having the desired plurality of grouped containers.

A cluster of joined containers 20, commonly known as a six-pack, is illustrated in FIG. 2 and shows the present invention installed on the said containers 20. The loops 10 encircle containers 20 below container chimes 21 along container sides 22 in a co-mating manner. Traversals 11 extend longitudinally between the two rows of containers 20 and terminate in stubs 11A at the left of the drawing and stub 11B (not shown) at the right.

A carrying handle 14 may be used with the cord type container carrier of FIGS. 1 and 2. The carrying handle 14 has slots 14A in each side member to grapple traversals 11. Carrying handle 14 is inserted along planes E and F.

FIG. 3 illustrates an embodiment of the present invention in which the container carrier is constructed from four separate strands of cord. For clarity this is also shown as a two piece drawing with cords I and II forming one part and cords III and IV forming the second part. A continuous series of loops 10A, 10 and 10B of both parts is utilized as in FIGS. 1 and 2 with the difference being in the manner that the loops 10 are formed. In this embodiment two successive loops are formed by a twist of the two cords comprising each part for each loop. The third twist is a 360 twist which may be made in a direction opposite to the first two twists. The first part, consisting of cord I and cord II, is then joined and welded to the second part, consisting of cord III and cord IV, along planes A-A and B-B respectively across loops 10A, 10 and 10B along planes 6-6. For rigidity, welding is also done longitudinally across loops 10A, 10 and 10B along planes H-H. Severance into desired clustered pluralities is done along planes C-C' and D-D' across the 360 twist.

FIG. 4 illustrates another embodiment of the present invention which is characterized by the utilization of four strands of ribbon to form the container carrier. Ribbon I and ribbon II are welded to each other by joining surface 12 of ribbon I to surface 12 of ribbon II along planes J-J', C-C' and D-D'. Ribbon III and ribbon IV are similarly joined and welded to each other. The first part, consisting of ribbons I and II, is then Welded to the second part, consisting of ribbons III and IV, by

3 joining planes A- to plane B-B along planes GG'. Severance is along planes -0 and DD. This embodiment allows a sufiiciently large surface 12 for welding for greater strength of the container carrier.

FIG. 5 illustrates still another embodiment of the present invention in which a single cord or ribbon is used to form the container carrier and is characterized by an integral handle. The carrier is formed commencing from the center, K, of a cord or ribbon. As shown by the arrows the two rear loops C and 10C are formed with the cords or ribbons then traversing to and forming center loops 10 and then traversing to and forming front loops 10D and 10D and going under traversal 11 at point L, then being turned upward and extended to above point K, there being extended downward to the rear and outside of point K to below traversal 11 where the two ends are joined. The extension of the cords or ribbons from .point L to point K forms handle 13 and 13. The carrier is then welded along planes AB-AB' and H-H'.

A cross sectional view of the present invention as installed on containers of FIG. 2 is illustrated in FIG. 6 and is taken along planes H-H' of FIGS. 1 and 5. As shown, the cords comprising loops 10 are of a diameter approximately equal to the distance chimes 21 extend beyond can sides 22 allowing loops 10 to contact each other for welding as shown in the center of the drawing.

FIG. 7 illustrates the use of ribbon as substituted for the cord in FIG. 6.

FIG. 8 shows the use of cord loops 10 installed on the newer flush chime containers where loops 10 are in the recess 23 below chimes 21.

FIGS. 9 and 10 show a method of connecting reels of cord or ribbon together to provide a continuous length of cord or ribbon for carrier fabrication. Cord or ribbon ends have holes 32 drilled into their solid centers and the holes 32 are coated with an adhesive. Connecting plugs 31 are then inserted into cord or ribbon ends 30'. Hollow center cord or ribbon is similarly connected but without the need to drill holes 32.

The present invention and all its embodiments may be formed and welded before installation, formed and welded during installation, or welded after installation.

The :present invention has been shown in certain preferred embodiments but is not intended to be limited thereto. Allowance is to be made to correspond with changes in the packaging industry such as, a change in pluralities of grouped containers in which two parallel rows of four are used to produce an eight-pack or three parallel rows of three to produce a nine-pack. The choice of solid center or hollow center cord or solid center or hollow center ribbon is dependent upon the weight, size and handling of the units.

I claim:

1. A container carrier for cans and the like being comprised of a plurality of continuous plastic cords, said cords being formed into continuous series of loops, said loops being placeable upon containers below the upper container chime and along said container sides in a comating manner with enough tension in said loops to grip said containers, said continuous series of loops encircling said containers being joined together and welded so as to effect a rigid structure, said structure being severable between certain loops to obtain secondary structures having the desired pluralities of clustered containers.

2. The container carrier of claim 1 being comprised of a plurality of continuous bands.

3. The container carrier of claim 1 being comprised of a singular continuous cord.

4. The container carrier of claim 1 being comprised of a singular continuous band.

References Cited UNITED STATES PATENTS 3,097,746 7/1963 Poupitch 206- JAMES B. MARBERT, Primary Examiner 

